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常春然
2023-05-14 18:14
  • 常春然
  • 常春然 - 教授 博导-西安交通大学-化学工程与技术学院-个人资料

近期热点

资料介绍

个人简历


教育经历\r
2009年9月~2013年7月:清华大学,化学系,理学博士,导师: 李隽 教授\r
2010年4月~2011年4月:慕尼黑工业大学,化学系,访学交流,合作导师:Notker Roesch\r
2006年9月~2009年7月:西北大学,化工学院,工学硕士,导师: 宋纪蓉 教授\r
2002年9月~2006年7月:西北大学,化工学院,工学学士\r
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工作经历\r
2021年1月~至今:西安交通大学 教授、博导\r
2016年7月~2020年12月:西安交通大学 副教授、博导\r
2013年7月~2016年6月 :西安交通大学 讲师

研究领域


"""""主要从事与能源、环保相关的催化新材料的设计与构建、多相催化反应机理、以及绿色催化反应体系开发等方面的研究。"

近期论文


Liao, W.-R.; Liu, H.-X.; Qi, L.; Liang, S.-J.*; Luo, Y.; Liu, F.-J.; Wang, X.-Y.; Chang, C.-R.*; Zhang, J.; Jiang, L.-L.*. Lithium/bismuth co-functionalized phosphotungstic acid catalyst for promoting dinitrogen electroreduction with high Faradaic efficiency. Cell. Rep. Phys. Sci. 2021, 2, 100557. PDF\r
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Peng, X.-B#.; Liu, H.-X.#(共同一作); Zhang, Y.-Y.#; Huang, Z.-Q.; Yang, L.-L.; Jiang, Y.-F.; Wang, X.-Y.*; Zheng, L.-R.; Chang, C.-R.; Au, C.-T.; Jiang, L.-L.*; Li, J. Highly efficient ammonia synthesis at low temperature over a Ru–Co catalyst with dual atomically dispersed active centers. Chem. Sci. 2021, doi.org/10.1039/D1SC00304F\r
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He, S.-Y.; Li, T.-H.; Huang, Z.-Q.; Liu, Y.; Li, J.; Chang, C.-R.*. Screening silica-confined single-atom catalysts for nonoxidative conversion of methane. J. Chem. Phys. 2021, 154, 174706. (SCI, IF: 2.991) PDF\r
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Liu, C.; Kang, J.-C.; Huang, Z.-Q.; Song, Y.-H.; Xiao, Y.-S.; Song, J.; He, J.-X.; Chang, C.-R.*; Ge, H.-Q.; Wang, Y.*; Liu, Z.-T.; Liu, Z.-W.*. Gallium nitride catalyzed the direct hydrogenation of carbon dioxide to dimethyl ether as primary product. Nat Commun. 2021, 12:2305. (SCI, IF: 12.121) PDF\r
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Huang, Z.-W.; Ban, T.(共同一作); Zhang, Y.; Wang, L.-P.; Guo, S.-F.; Chang, C.-R.*; Jing, G.-H.*. Boosting the thermal stability and catalytic performance by confining Ag single atom sites over antimony-doped tin oxide via atom trapping. Appl. Catal. B: Environ. 2021, 283, 119625. (SCI, IF: 16.683) PDF\r
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Liu, Y.; Duan, Z.-H.; Li, J.; Chang, C.-R.*. Gas-Phase Mechanism Study of Methane Nonoxidative Conversion by ReaxFF Method. Acta Phys. -Chim. Sin. 2021, 37(11), 2011012. (SCI, IF: 1.379) PDF\r
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Liu, Y.; Liu, J.-C.; Li, T.-H.; Duan, Z.-H.; Zhang, T.-Y.; Yan, M.; Li, W.-L.; Xiao, H.; Wang, Y.-G.; Chang, C.-R. *; Li, J. *. Unravelling the Enigma of Nonoxidative Conversion of Methane on Iron Single‐Atom Catalysts. Angew. Chem. Int. Ed. 2020, 59,18586–18590 (SCI, IF: 12.959) PDF \r
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Li,T.-H.; Yan, M.; Liu, Y.; Chang, C-R.*; Li, J. Cooperative catalysis by multiple active centers in nonoxidative conversion of methane. J. Phys. Chem. C 2020, 124, 25, 13656–13663 (SCI, IF: 4.309) PDF\r
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Huang, Z.-Q.; Li, T.-H.; Yang, B.; Chang C.-R.*. Role of surface frustrated Lewis pairs on reduced CeO2(110) in direct conversion of syngas. Chin. J. Catal. 2020, 41, 1906-1915. (SCI, IF: 4.91) PDF\r
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Xiong, Y.; Dong, J.; Huang, Z.-Q.(共同一作); Xin, P.; Chen, W.; Wang, Y.; Li, Z.; Jin, Z.; Xing, W.; Zhuang, Z.; Ye, J.; Wei, X.; Cao, R.; Gu, L.; Sun, S.; Zhuang, L.; Chen, X.; Yang, H.; Chen, C.; Peng, Q.; Chang, C-R.; Wang, D.*; Li, Y.*. Single-atom Rh/N-doped carbon electrocatalyst for formic acid oxidation. Nat. Nanotechnol. 2020, 15, 390-397. (SCI, IF: 33.407) PDF\r
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Wang, B.; Chen, Y.-T.(共同一作); Chang, T.-Y.; Jiang, Z.; Huanga, Z.-Q.; Wanga, S.-Y.; Chang, C.-R.*; Chen,Y.-S.; Wei,J.-J.; Yang, S.; Fang,T.*.Facet-dependent catalytic activities of Pd/rGO: Exploring dehydrogenation mechanism of dodecahydro-N-ethylcarbazole. Appl. Catal. B.: Environ. 2020, 266, 18658. (SCI, IF: 14.229) PDF\r
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Zhao, S.; Liu,H.-X.(共同一作); Qiu, Y.; Liu, S.-Q.; Diao, J.-X.; Chang, C.-R.*; Si, R.; Guo, X.-H.*.An oxygen vacancy-rich two-dimensional Au/TiO2 hybrid for synergistically enhanced electrochemical N2 activation and reduction. J. Mater. Chem. A. 2020, 8, 6586-6596. (SCI, IF: 10.420) PDF\r
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Li, J.-Y.; Liu, H.-X.(共同一作); Gou,W.-Y.; Zhang, M.-K.; Xia, Z.-M.; Zhang, S.; Chang, C.-R.*; Ma, Y.-Y*. and Qu, Y.-Q.*.Ethylene-glycol ligand environment facilitates highly efficient hydrogen evolution of Pt/CoP through proton concentrating and hydrogen spillover. Energy Environ. Sci. 2019, 12, 2298-2304. (SCI, IF: 30.067) PDF\r
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Huang, Z.-Q.;Zhang, T.; Chang, C.-R.*; Li, J.. Dynamic frustrated lewis pairs on ceria for direct nonoxidative coupling of methane. ACS Catal. 2019, 9,5523–5536. (SCI, IF: 11.384) PDF\r
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Zhang, S.; Huang, Z.-Q.(共同一作); Chen, X.; Gan, J.; Duan, X.-Z.; Yang, B.-L.; Chang,C.-R.*; Qu, Y.-Q.*. Hydrogen activation enabled by the interfacial frustrated Lewis pairs on cobalt borate nanosheets. J. Catal. 2019, 372,142–150. (SCI, IF: 6.759) PDF\r
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Yao, Y.-C.; Hu, S.-L.; Chen, W.-X.; Huang, Z.-Q.; Wei, W.C.; Yao,T.; Liu, R.-R.; Zang, K.-T.; Wang, X.-Q.; Wu, G.; Yuan, W.-J.; Yuan, T.-W.; Zhu, B.-Q.; Liu, W.; Li, Z.-J.; He, D.-S.; Xue, Z.-G.; Wang, Y.; Zheng, X.-S.; Dong, J.-C.; Chang,C.-R.; Chen, Y.-X.; Hong, X.; Luo, J.; Wei,S.-Q.; Li, W.-X.*; Strasser, P.; Wu, Y.-E.*; & Li, Y.-D..Engineering the electronic structure of single atom Ru sites via compressive strain boosts acidic water oxidation electrocatalysis. Nat. Catal. 2019,2, 304-313. PDF\r
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Ruan, C.-Y.; Huang, Z.-Q.(共同一作); Lin, J.; Li, L.; Liu, X.-Y.; Tian, M.; Huang, C.-D.; Chang,C.-R.*; Li, J.; Wang, X.-D.*. Synergy of the catalytic activation on Ni and the CeO2–TiO2/Ce2Ti2O7 stoichiometric redox cycle for dramatically enhanced solar fuel production. Energy Environ. Sci. 2019,12, 767-779 . (SCI, IF: 30.067) PDF\r
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Zhang, Y.-Y.; Wang, M.-J.; Chang, C.-R.; Xu, K.-Z.*; Ma, H.-X.; Zhao, F.-Q. A DFT study on the enthalpies of thermite reactions and enthalpies of formation of metal composite oxide. Chem. Phys. 2018, 507, 19-27. (SCI, IF: 1.771) PDF\r
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Huang, C.-D.; Wu, J.; Chen,Y.-T.; Tian, M.; Rykov, A.I,; Hou,B.-L.; Lin, J.*; Chang, C.-R.*; Pan, X.-L.; Wang, J.-H.; Wang, A.-Q. & Wang, X.-D.*. In situ encapsulation of iron(0) for solar thermochemical syngas production over iron-based perovskite material. Commun. Chem. 2018, 1, 55. (Nature系列刊物) PDF \r
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Ma, Y.-Y.; , Zhang, S.; Chang, C.-R.; Huang, Z.-Q.;, Ho, J.C. and Qu, Y.-Q.*, Semi-solid and solid frustrated Lewis pair catalysts. Chem. Soc. Rev. 2018, 47, 5541-5553. (SCI, IF: 40.182) PDF

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